Extensible transcoder annotation for transcoding proxy servers

ABSTRACT

Within one embodiment of the present invention, the rules for transcoding web content are abstracted from the transcoding functionality of a transcoding proxy server. Specifically, within the transcoding proxy server, the functions that perform the transcoding of web content for a device having limited display capabilities is completely separate and distinct from the transcoding rules, e.g., extensible transcoder annotation (XTA), that provide the order, manner, and/or what web content should be transcoded for the requesting device. Therefore, when the transcoding proxy server receives a web page request from a device, its transcoding software accesses an XTA file to find a rule set that pertains to the web page request. Upon finding a corresponding XTA rule set, the transcoding proxy server follows the instructions of the rule set in order to transcode the requested web page for the device having limited display capabilities.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of application Ser. No.09/825,031, entitled “Extensible Transcoder Annotation for TranscodingProxy Servers,” filed Apr. 2, 2001, to be issued as U.S. Pat. No.7,020,721, and assigned to the assignee of the present application. Thesubject matter in the above-identified co-pending and commonly ownedapplication is incorporated herein by reference.

TECHNICAL FIELD

The present invention generally relates to the field of computers. Moreparticularly, the present invention relates to the field of transcodingproxy servers.

BACKGROUND ART

Computers and other electronic devices have become integral tools usedin a wide variety of different applications, such as finance andcommercial transactions, computer-aided design and manufacturing, healthcare, telecommunication, education etc. Computers along with otherelectronic devices are finding new applications as a result of advancesin hardware technology and rapid development in software technology.Furthermore, the functionality of a computer system or other type ofelectronic device is dramatically enhanced by coupling these type ofstand-alone devices together in order to form a network environment.Within a networking environment, users may readily exchange files, shareinformation stored on a common database, pool resources, and communicatevia electronic mail (e-mail) and video teleconferencing. Furthermore,computers along with other types of electronic devices which are coupledto the internet provide their users access to data and information fromall over the world. Computer systems have become useful in many aspectsof everyday life both for personal and business uses.

Included within this broad category of computers and electronic devicesis the personal digital assistant (commonly referred to as a PDA).Specifically, as the components required to build a computer system havebeen generally reduced in size, new categories of computer systems haveemerged. One of these new categories of computers is the personaldigital assistant. A personal digital assistant is a portable computersystem which is small enough to be held in the hand of its user and canbe “palm sized”. Additionally, some personal digital assistants areenhanced with the capability to be coupled to the internet using wiredor wireless technology thereby providing their users access to anextremely large amount of data and information. However, there aredisadvantages associated with personal digital assistants accessing theinternet.

For example, one of the disadvantages is that internet web pages aretypically developed for color display screens having a resolution of800×600 or larger and it does not scale very well to the small displayscreens that are typically implemented with personal digital assistants.As such, several different techniques have been developed in order toenable personal digital assistants to handle web pages from theinternet.

One of the techniques for enabling personal digital assistants to handleweb pages from the internet is referred to a web scraping. Within onevariety of web scraping, one or more persons actually view an originalweb page on the internet and determine which content is relevant and howto arrange it for the small display screens of personal digitalassistants. Next, the scraped web content of the original web page isstored by a special web server which is accessible by personal digitalassistants. Therefore, personal digital assistants are able to receivethe scrapped web page content of the original web page from the specialweb server. It should be appreciated that once a web page has beenscraped, personal digital assistant users are usually notified in somemanner where to access the scraped web page.

There are disadvantages associated with the web scraping techniquedescribed above. For example, personal digital assistants are typicallyonly able to access web content from web pages that have been previouslyscraped. That is, personal digital assistants are not provided thefreedom of accessing any web page on the internet. Instead, personaldigital assistants are limited to access pre-made (scraped) web pages.Furthermore, personal digital assistants are unable to access web pagesby using their direct URL (Uniform Resource Locator). Instead, webscraping technologies involve personal digital assistant users going toanother location (e.g. URL) in order to access web page content. Itshould be understood this may be an unattractive to personal digitalassistant users because they desire the convenience of just typing inthe URL and accessing its corresponding web page.

Another technique for enabling personal digital assistants to handle webpages from the internet is to utilize a transcoding proxy server.Specifically, instead of a personal digital assistant accessing webpages of the internet directly, it requires web pages from a transcodingproxy server. However, before delivering the requested web pages to therequesting personal digital assistant, the transcoding proxy servertypically performs a “best guess” transcoding of the web pages which mayinvolve stripping out all of the web content (e.g. images, Java,JavaScript, tables etc.) that the small display screen of the personaldigital assistant is unable to handle. Subsequently, the transcodingproxy server transmits the remaining web content to the personal digitalassistant.

However there are disadvantages associated with the “best guess”transcoding technique performed by transcoding proxy servers. Forexample, one disadvantage is that the “best guess” transcoding techniqueprovides very poor quality web page product (from the view of the webpage providers and personal digital assistant users) to personal digitalassistants.

Yet another technique for enabling personal digital assistants to handleweb pages from the internet is referred to as web clipping.Specifically, the web clipping technique involves installing a webclipping application on a personal digital assistant foe each web pagethat its user desires to receive information from. Typically, whenactivated, a web clipping application transmits a request to an internetserver for limited web content (commonly referred to as web clipping)from a specific web page. It is appreciated that a web clipping iscompressed HTML (Hypertext Markup Language) page which is transmitted bythe internet server to the requesting personal digital assistant.

It should be appreciated that there are disadvantages associated withthe web clipping technique. For example, personal digital assistantsusing the web clipping technique have limited access to the internet.Specifically, if a personal digital assistant does not have a webclipping application corresponding to a specific web page, it is unableto access web content from that web page. Therefore a web clippingapplication has to be developed by someone for every web page a personaldigital assistant user desires to access. Furthermore, anotherdisadvantage is with the web clipping technique is that a personaldigital assistant is unable to request web clippings from a specific webpage until the corresponding web clipping application has been installedon the personal digital assistant. In other words, the internet accessof a personal digital assistant is limited by the web clippingapplications installed on it.

DISCLOSURE OF THE INVENTION

Accordingly, a need exists for a method and system for providing qualityweb page products from the internet to personal digital assistants.Furthermore, a need exists for a method and system which satisfies theabove need and enables personal digital assistants to access any webpage on the internet. Additionally, a need exists for a method andsystem which satisfies the above needs and is not cumbersome to users ofpersonal digital assistants. Embodiments of the present inventionprovide a method and system which accomplishes the above mentionedneeds.

For example, within a transcoding proxy server in accordance with anembodiment of the present invention, the rules for transcoding webcontent are abstracted from the transcoding functionality of thetranscoding proxy server. Specifically, within the transcoding proxyserver, the functions that perform the transcoding of web content for adevice having limited display capabilities are completely separate anddistinct from the transcoding rules, e.g., extensible transcoderannotation (XTA), that provide the order, manner, and/or what webcontent should be transcoded for the requesting device. Therefore, whenthe transcoding proxy server receives a web page request from a device,its transcoding software accesses an XTA file (or database) to find arule set (or instruction set) that pertains to the requested web page.Upon finding a corresponding XTA rule set, the transcoding proxy serverexecutes the instructions of the rule set in order to transcode therequested web page for the device having limited display capabilities.

There are advantages associated with abstracting the rules oftranscoding web content from the transcoding functionality of atranscoding proxy server in accordance with the present invention. Forexample, one of the advantages is that XTA rule sets may be created toinclude information about what objects have relevant content within thespecific web pages and/or classes of web pages. By providing thisinformation to the transcoding proxy server, it is able to bettertranscode web pages for the requesting device having limited displaycapabilities and thereby enhance its user's overall experience. Anotheradvantage is that while the transcoding proxy server is transcoding webpages, an embodiment of the present invention enables a person toutilize a computer coupled to the transcoding proxy server to remotelyadd, delete, and edit XTA rule sets within its XTA file. In other words,XTA rule sets may be added, deleted, and edited within the XTA filestored by the transcoding proxy server without having to suspend it fromtranscoding web pages. Furthermore, once changes are made to the XTAfile of the transcoding proxy server, it is able to immediately executeany XTA rule set contained within its XTA file. Therefore, the manner inwhich the transcoding proxy server transcodes a web page and/or a classof web pages may be changed at any time by changing the correspondingXTA rule set or sets of its XTA file.

In another embodiment, the present invention includes a computerreadable medium having computer readable code embodied therein forcausing a transcoding proxy server to perform particular steps. Tecomputer readable medium causes the transcoding proxy computer toperform the step of receiving a web page request from a portablecomputing device. Additionally, the computer readable medium causes thetranscoding proxy computer to perform the step of transmitting the webpage request to a server computer coupled to the transcoding proxycomputer. The computer readable medium also causes the transcoding proxycomputer to perform the step off receiving from the server computer aweb page element corresponding to the web page request. Furthermore, thecomputer readable medium causes the transcoding proxy computer toperform the step of locating a first annotation rule set thatcorresponds to the web page request. It is appreciated that the firstannotation rule set is distinct from transcoding functionality utilizedby the transcoding proxy server. Moreover, the computer readable mediumcauses the transcoding proxy computer to perform the step of transcodingthe web page element for the portable computing device by following thefirst annotation rule set and utilizing the transcoding functionality.

The present invention provides these advantages and others which will nodoubt become obvious to those of ordinary skill in the art after havingread the following detailed description of embodiments in accordancewith the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and form a part ofthis specification, illustrate embodiments of the invention and,together with the description, server to explain the principles of theinvention.

FIG. 1 is a block diagram of one embodiment of an exemplary computersystem used in accordance with the present invention.

FIG. 2 is a block diagram of an exemplary network environment inaccordance with one embodiment of the present invention.

FIG. 3A illustrates a layout XTA rule set in accordance with oneembodiment of the present invention.

FIG. 3B illustrates a specific XTA rule set in accordance with oneembodiment of the present invention.

FIG. 3C illustrates a default XTA rule set in accordance with oneembodiment of the present invention.

FIG. 4 is a flowchart of steps performed in accordance with oneembodiment of the present invention for enabling a transcoding proxyserver to utilize extensible transcoder annotation (XTA) to transcodeweb pages for a portable computing device having limited displaycapabilities.

FIG. 5 is a flowchart of steps performed in accordance with anotherembodiment of the present invention for enabling a transcoding proxyserver to utilize XTA to transcode web pages for a portable computingdevice having limited display capabilities.

FIG. 6 is a flowchart of steps performed in accordance with oneembodiment of the present invention for enabling a transcoding proxyserver to utilize an annotation transcoding rule set to transcode webpages for a portable computing device having limited displaycapabilities.

DETAILED DESCRIPTION OF THE INVENTION

Reference will now be made in detail to the preferred embodiments of theinvention, examples of which are illustrated in the accompanyingdrawings. While the invention will be described in conjunction with thepreferred embodiments, it will be understood that they are not intendedto limit the invention to these embodiments. On the contrary, theinvention is intended to cover alternatives, modifications andequivalents, which may be included within the spirit and scope of theinvention as defined by the appended claims. Furthermore, in thefollowing detailed description of the present invention, numerousspecific details are set forth in order to provide a thoroughunderstanding of the present invention. However, it will be obvious toone of ordinary skill in the art that the present invention may bepracticed without these specific details. In other instances, well knownmethods, procedures, components, and circuits have been described indetail as not to unnecessarily obscure aspects of the present invention.

Some portions of the detailed descriptions which follow are presented interms of procedures, logic blocks, processing, and other symbolicrepresentations of operations on data bits within a computer or digitalsystem memory. These descriptions and representations are the means usedby those skilled in the data processing arts to most effectively conveythe substance of their work to others skilled in the art. A procedure,logic block process, etc., is herein, and generally, conceived to be aself-consistent sequence of steps or instructions leading to a desiredresult. The steps are those requiring physical manipulations of physicalqualities. Usually, though not necessarily, these physical manipulationtake the form of electrical or magnetic signals capable of being stored,transferred, combined, compared, and otherwise manipulated in a computersystem or similar electronic computing device. For reasons ofconvenience, and with reference to common usage, these signals arereferred to as bits, values, elements, symbols, characters, terms,numbers, or the like with reference to the present invention.

It should be borne in mind, however, that all of these terms are to beinterpreted as referring to physical manipulations and quantities andare merely convenient labels and are to be interpreted in further viewof terms commonly used in the art. Unless specifically stated otherwiseas apparent from the following discussions, it is understood thatthroughout discussions of the present invention, discussions utilizingterms such as “determining” or “transcoding” or “locating” or“controlling” or “transmitting” or “receiving” or “recognizing” or“generating” or “utilizing” or “following” or the like, refer to theaction and processes of a computer system, or similar electroniccomputing device, that manipulates and transforms data. The data isrepresented as physical (electronic) quantities within the computersystem's registers and memories and is transformed into other datasimilarly represented as physical quantities within the computer systemmemories or registers or other such information storage, transmission,or display devices.

AN EXAMPLARY COMPUTER SYSTEM IN ACCORDANCE WITH THE PRESENT INVENTION

Figure one is a block diagram of one embodiment of an exemplary computersystem 100 used in accordance with the present invention. It should beappreciated that system 100 of the present embodiment is well suited tobe other types of computers (e.g. portable laptop computer, desktopcomputer, server computer, and the like). Within the followingdiscussions of the present invention, certain processes and steps arediscussed that are realized, in one embodiment, as a series ofinstructions (e.g. software program) that reside within computerreadable memory units of the computer system 100 and executed byprocessor(s) of system 100. When executed, the instructions cause system100 to perform specific actions and exhibit specific behavior which isdescribed in detail below.

In general computer system 100 of FIG. 1 used by an embodiment of thepresent invention comprises an address/data bus 110 for communicatinginformation, one or more central processors 102 coupled with bus 110 forprocessing information and instructions. Central processor unit 102 maybe a microprocessor or any other type of processor. The computer system100 also includes data storage features such as a computer usablevolatile memory unit 104 (e.g. random access memory, static RAM, dynamicRAM, etc.) coupled with bus 110 for storing information and instructionsfor central processor(s) 102, a computer usable non-volatile memory unit106 (e.g., read only memory, programmable ROM, flash memory, EPROM,EEEPROM, etc.) coupled with bus 110 for storing static information andinstructions for processor(s) 102. System 100 also includes a signalgenerating and receiving device 108 coupled with bus 110 for enablingsystem 100 to interface with other electronic devices. In one embodimentof the present invention, the communication interface 108 is a serialcommunication port, but could also alternatively be any of a number ofwell known communication standards and protocols, e.g. Universal SerialBus (USB), Ethernet, FireWire IEEE 1394), parallel, small computersystem interface (SCSI), infrared (IR) communication, Bluetooth wirelesscommunication, etc.

Optionally, computer system 100 can include a display device 112 whichis coupled to bus 110 for displaying graphics and/or video. It should beappreciated that optional display device 112 may be a cathode ray tube(CRT), flat panel liquid crystal display (LCD), field emission display(FED), or any other display suitable for displaying video and/or graphicimages and alphanumeric characters recognizable to a user. Furthermore,system 100 can include an optional alphanumeric input device 114including alphanumeric and function keys coupled to the bus 110 forcommunicating information and command selections to the centralprocessor(s) 102.

Additionally, the computing device 100 of FIG. 1 can include an optionalcontrol or cursor directing device 116 coupled to the bus 110 forcommunicating user input information and command selections to thecentral processor(s) 102. The cursor directing device 116 can beimplemented using a number of well known devices such as a mouse, atrack-ball, a track pad, an optical tracking device, a touch screen etc.Alternatively, it is appreciated that a cursor can be directed and/oractivated via input from alphanumeric input device 114 using specialkeys and key sequence commands. The present embodiment is also wellsuited to directing a cursor by other means such as. For example, voicecommands. In addition, the cursor directing device 116 can also be aremote control device (e.g. a universal remote control device having anumber of buttons dial etc.) with an infrared signal communicationcapability. System 100 can also include a computer usable mass datastorage device 118 such as a magnetic or optical disk and disk drive(e.g., hard drive or floppy diskette) coupled with bus 110 for storinginformation and instructions.

EXEMPLARY NETWORK IN ACCORDANCE WITH THE PRESENT INVENTION

FIG. 2 is a block diagram of an exemplary network environment 200 inaccordance with one embodiment of the present invention. Networkenvironment 200 includes a transcoding proxy server 208 which is coupledto communicate with a personal digital assistant (PDA) 202 and theinternet 212. Within the present embodiment, one of the functions oftranscoding proxy server 208 is to perform operations over the internet212 on behalf of personal digital assistant 202. For example,transcoding proxy server 208 may have a particular internet address andit may act as a proxy device for personal digital assistant 202 over theinternet 212. As such, transcoding proxy server 208 may access,transcode, and deliver requested web content from the internet 212 topersonal digital assistant 202. In this manner, personal digitalassistant 202 is able to receive web content that its limited sizeddisplay screen 203 is able to handle.

Specifically, network environment 200 includes personal digitalassistant 202 that has the ability to transmit and receive data andinformation over a wireless communication interface. (e.g. radiointerface). It is understood that personal digital assistant 202 is aportable computing device that is fabricated small enough to be held inthe hand of the user and may be “palm sized”. As such, personal digitalassistant 202 typically has a display 230 having limited capabilities.It should be appreciated that personal digital assistant 202 of thepresent embodiment is well suited to be any type of portable computingdevice (e.g. mobile phone, pager, and the like) that typically haslimited display capabilities. Network environment 200 also includes abase station 204 that is a transmitter and receiver base station whichcan be implemented by coupling it to an existing public telephonenetwork 206. Implemented in this manner, base station 204 enablepersonal digital assistant 202 to communicate with transcoding proxyserver computer 208 which is coupled to the existing public telephonenetwork 206. It should be appreciated that the data and informationcommunicated between base station 204 and personal digital assistant 202are the same type of information and data can conventionally betransferred and received over a public telephone wired network system.However, a wireless communication interface is utilized to communicatedata and information between personal digital assistant 202 and basestation 204.

Network environment 200 of FIG. 2 also includes a computer system 210that is coupled to transcoding proxy server 208 thereby enablingcomputer system 210 to download software instructions (in accordancewith an embodiment of the present invention) to transcoding proxy server208. Furthermore, computer 210 is coupled to the internet 212 therebyenabling personal digital assistant 202 to communicate with web contentservers (e.g. 214 and 216) via the internet 212. The transcoding proxyserver 208 is coupled to the Internet 212 thereby enabling personaldigital assistant 202 to communicate with web content servers (e.g. 214and 216) via the Internet 212. Moreover it is understood that personaldigital assistant 202 of the present embodiment may be communicativelycoupled to a transcoding proxy server 208 via wired and/or wirelesstechnology. It is appreciated that transcoding proxy server 208,computer 210, and web content servers 214 and 216 of the presentembodiment may be implemented in a manner similar to computer 100described above with reference to FIG. 1.

EXEMPLARY TRANSCODER ANNOTATION IN ACCORDANCE WITH THE PRESENT INVENTION

FIGS. 3A, 3B, and 3C illustrate embodiments of extensible transcoderannotation (XTA) rule sets in accordance with the present invention. Itis understood that within a transcoding proxy server in accordance withan embodiment of the present invention, the rules for transcoding webcontent (e.g. XTA) are abstracted from the transcoding functionality ofthe transcoding proxy server. Specifically, within the transcoding proxyserver, the functions that perform the transcoding of web content for adevice having limited capabilities is completely separate and distinctfrom its transcoding rules software (e.g. XTA) that provides the order,manner and/or what web content should be transcoded for the requestingdevice. As such, when the transcoding proxy server receives a web pagerequest from a device, its transcoding software accesses an XTA file (ordatabase) to find an XTA rule set or instruction set that pertains tothe requested web page. Upon finding a corresponding XTA rule set, thetranscoding proxy server follows the instructions of the rule set inorder to transcode the requested web page for the device having limiteddisplay capabilities.

There are advantages associated with abstracting the rules oftranscoding web page content (e.g. XTA) from the transcodingfunctionality of a transcoding proxy server in accordance with anembodiment of the present invention. For example one of the advantagesis that XTA rule sets may be created to include information about whatobjects have relevant content within specific web pages or classes ofweb pages. By providing this information to a transcoding proxy server(e.g. 208), it is able to better transcode web pages for the requestingdevice (e.g. 202) having limited display capabilities. In this manner,the overall experience is enhanced for a user of the requesting device(e.g. 202) having limited display capabilities. Another advantage is XTArule sets may be specifically tailored for any type of device havinglimited display capabilities. For example, an XTA rule set designed fordirecting a transcoding proxy server (e.g., 208) to transcode a web pagefor a personal digital assistant may be different from an XTA rule setdesigned for a mobile phone. It is understood that the transcodingfunctionality of a transcoding proxy server is specifically designed fortranscoding web pages for the type of device it services.

Another advantage associated with abstracting the rules of transcodingweb page content (e.g. XTA) from the transcoding functionality of atranscoding proxy server is that while a transcoding proxy server (e.g.208) is transcoding a web page, an embodiment of the present inventionenables a person to utilize a computer (e.g. 210) coupled to thetranscoding proxy server (e.g. 208) to remotely add, delete, and editXTA rule sets within its XTA file. In other words, XTA rule sets may beadded, deleted, and edited within the XTA file stored by the transcodingproxy server without having to suspend it from transcoding web pages.Furthermore, once changes are made to the XTA file of the transcodingproxy server, it is able to immediately follow any XTA rule setcontained within its XTA file. Therefore, the manner in which thetranscoding proxy server transcodes a web page and/or classes of webpages may be changed at any time by changing the corresponding XTA ruleset(s) of its XTA file. As such, portable devices (e.g. 202) and webcontent servers (e.g. 214) are not involved with changing an XTA ruleset(s).

It is understood that a web page which is an object typically containsobjects which represent either web page content or web page layout. Forexample, web page content objects may include anchors, images,blockquotes, form input, ordered and unordered lists, etc. Additionally,web page layout objects may include tables, frames, and forms. Withinthe present embodiment, an XTA rule set may specify to a transcodingproxy server (e.g. 208) the order, manner, and/or what web objects totranscode for a particular web page request received from a device (e.g.202) having limited display capabilities. More specifically, an XTA ruleset may contain instructions pertaining to the content and/or layout ofa particular web page or class of web pages along with information aboutwhat web objects contain content relevant to the requesting devicehaving limited display capabilities. It is understood that instructionsof an XTA rule set may deal with a web page or class of web pages on anobject level. However, an XTA rule set is not limited to object levelinstructions. It should be noted that an XTA rule set does not containany web content itself.

Within an embodiment of the present invention, an XTA rule set mayconsist of a “snapshot” of the content of a web page in highly reducedform along with additional information regarding the priority and/orrelevance of various objects within the web page. There are many ways tocreate the XTA rule set in accordance with an embodiment of the presentinvention. For example a user of computer 210 may create a “snapshot” ofa web page by using a tool which runs through the source HTLM (HypertextMarkup Language) of the web page. The content of the webpage is removedand then the HTML tags are converted into XTA expressions of the objectsthey represent. Default attributes may then be added to the objects.Additionally, the user of computer 210 may add information to the XTArule set regarding the priority and/or relevance of various objectswithin the web page. It should be appreciated that the more complex the“snapshot” of a web page is, the more XTA possibilities exist.

FIGS. 3A, 3B and 3C illustrate three different types of exemplary XTArule sets: specific, layout, and default. A specific XTA rule set 322 asshown in FIG. 3B may include transcoding instructions for a transcodingproxy server (e.g. 208) regarding the content and/or layout of aspecific web page (e.g. http://www.yahoo.com). A layout XTA rule 302 asshown in FIG. 3A may include transcoding instructions for a transcodingproxy server (e.g. 208) regarding the layout of a class of web pagesthat share the same layout properties. For example layout XTA rule set302 may include transcoding instructions for the class of web pages thathave a graphic header at the top of the web page, a navigational menu atthe left side of the web page and content covering the remainder of theweb page. A default XTA rule set 340 as shown in FIG. 3C may includetranscoding instructions for a transcoding proxy server (e.g. 208)regarding web pages that do not match any of the existing XTA rules(e.g. specific XTA rule set 322 and/or layout XTA rule set 302) storedby the transcoding proxy server. Each of these XTA rule sets (e.g. 302,322, and 340) will be described in greater detail below. However, it isappreciated that the XTA may be implemented in a wide variety of waysand is not restricted to any particular implementation.

Within the XTA rule sets of FIGS. 3A, 3B, and 3C, object elements mayhave an assigned priority attribute. For example, a priority of zeroindicates the highest relevance and indicates to a transcoding proxyserver (e.g. 208) that the object is to be preserved. Furthermore anegative priority indicates to the transcoding proxy server that theobject is totally irrelevant and may be stripped. A positive non-zeropriority indicates relative relevance and the transcoding proxy serveris free to decide whether to transcode or strip the objects based on therequesting device's (e.g. 202) capabilities. Additionally, objectselements of XTA rule sets may also have an assigned order attribute. Forexample, the order allows the objects to be presented by the transcodingproxy server in a different order than the original layout of the webpage would suggest. This allows the transcoding proxy server to presentmore relevant content higher up on the display of a requesting device(e.g. 202) having limited horizontal capabilities.

Within an embodiment of the present invention, it should be appreciatedthat the binding between a web page request from a device (e.g. 202) anda possible XTA rule set stored by a transcoding proxy server (e.g. 208)could be an XTA rule set within a file or a database that has (forexample) the URL (Uniform Resource Locator) of the requesting web page.The binding may be tight, as in a separate XTA rule set for each fullyqualified URL, or it may be loose, as in one XTA rule set for a wholeset of web pages located at a common root URL.

FIG. 3A illustrates an exemplary layout XTA rule set 302 in accordancewith one embodiment of the present invention that may be understood by atranscoding proxy server (e.g. 208). Within the present embodiment,layout XTA rule set 302 may include transcoding instructions for webpage layout objects for a device (e.g. 202) having limited displaycapabilities. For example, web page layout objects may include tables,frames, and forms. Moreover, layout XTA rule set 302 may includetranscoding instructions for a class of web pages that share the sameweb page layout properties. It is appreciated that layout XTA rule set302 may include a type of transcoding instructions pertaining to webpage layout. As such, layout XTA rule set 302 of the present embodimentis not in any way limited to the transcoding instructions shown in FIG.3A.

Specifically, lines 304, 306, 308 and 310 of layout XTA rule set 302provide transcoding instructions to a transcoding proxy server (e.g.208) for a class of web pages having three tables. For example layoutXTA rule set 302 may pertain to the type of web pages that have agraphic header at the top of the web page, a navigational menu at theleft side of the web page and content covering the remainder of the webpage. The transcoding proxy server (e.g. 208) would interpret line 304to indicate that a web page that pertains to rule set 302 is to betranscoded because it has a priority of zero. Furthermore, at line 304,the transcoding proxy server understands that the presentation order isexplicit so it is to follow the ordering attributes of rule set 302 foreach table of the web page.

At line 306 of FIG. 3A the transcoding proxy server (e.g., 208)understands that the first table is totally irrelevant and should not bepreserved because it has a negative priority value (e.g., −1) At line308, the transcoding proxy server understands that the second table isrelatively relevant because it has a positive priority value (e.g., 1).Additionally, the transcoding proxy server understands from line 308that the second table of web pages is to be presented second because itsorder number is to “2”. Moreover, the transcoding proxy serverunderstands from line 308 that the second table is to be presented in amanner such that it does not take up much vertical space because itssize information is equal to “small.” At line 310, the transcoding proxyserver understands that the third table is to be presented because itspriority value is equal to zero. Furthermore, the transcoding proxyserver understands from line 310 that the third table of the web page isto be presented first because its order number is equal to “1”. That is,the third table is presented first as opposed to third as the originalweb page layout would suggest. Moreover, the transcoding proxy serverunderstands from line 310 that the third table is to be presentednormally because its size information is equal to “normal”.

FIG. 3B illustrates an extremely specific XTA rule set 322 in accordancewith one embodiment of the present invention that may be understood andexecuted by a transcoding proxy server (e.g. 208). Within the presentembodiment, specific XTA rule set 322 includes transcoding instructionsthat a transcoding proxy server (e.g. 208) may follow in order totranscode a specific web page for a device (e.g. 202) having limiteddisplay capabilities. Specific XTA rule set 322 may include transcodinginstructions pertaining to the content and/or layout of a specific webpage. Specifically, web page layout objects may include tables, frames,and forms while web content objects my include anchors, images,blockquotes, form input, ordered and unordered lists, and the like. Thespecific XTA rule set 322 may be particularly designed for a particularURL (e.g., http://www.yahoo.com). It is understood that specific XTArule set 322 may include any type of transcoding instructions pertainingto web page content and/or layout. As such, specific XTA rule set 322 ofthe present embodiment is not in any way limited to the transcodinginstructions pertaining to web page content and/or layout. As such,specific XTA rule set 322 of the present embodiment is not in any waylimited to the transcoding instructions shown in FIG. 3B.

Specifically lines 324, 326, 328, 330, 332 and 334 of specific XTA ruleset 322 provide transcoding instructions to a transcoding proxy server(e.g. 208) for the web page having the URL of http://www.yahoo.com. TheTranscoding proxy server (e.g. 208) interprets line 324 to indicate thatthe web page that pertains to rule set 322 is to be transcoded becauseit has a priority value equal to zero. Furthermore, at line 324, thetranscoding proxy server understands that the presentation order isexplicit so it is to follow the ordering attributes of rule set 322 foreach listed item of the web page.

At line 326 of FIG. 3B, the transcoding proxy server (e.g. 208) isinstructed to transcode all of the tables of the requested web page byfollowing layout XTA rule set 302. As such, it is appreciated that XTArule sets may be nested within other XTA rule sets. The transcodingproxy server also understands from line 326 that the layout XTA rule set302 is to be executed because it has a priority of zero. Furthermore,the transcoding proxy server understands from line 326 that the layoutXTA rule set 302 is to be executed first because its order value isequal to “1”. At line 328, the transcoding proxy server understands thatthe first anchor is to be presented because it has a priority valueequal to zero and it is to be presented normally because its sizeinformation is equal to “normal”. Additionally, the transcoding proxyserver understands from line 328 that the first anchor is to bepresented after the layout XTA rule set 302 is to be executed.

At line 330, the transcoding proxy server (e.g., 208) understands thatthe second anchor is to be presented because it also has a priorityvalue equal to zero and it is to be presented normally because its sizeinformation is equal to “normal”. However, the transcoding proxy serverunderstands from line 330 that the second anchor is to be presentedfifth as opposed to what the original web page would suggest. At line332, the transcoding proxy server understands that the third anchor isalso to be presented because it has a priority value equal to zero andit is to be presented normally because its size information is equal to“normal”. The transcoding proxy server understands from line 332 thatthe third anchor is to be presented fourth. At line 334, the transcodingproxy server understands that the fourth anchor is to be presentedbecause it has a priority value equal to zero and it is to be presentednormally because its size information is equal to “normal”. Thetranscoding proxy server understands from line 334 that the fourthanchor is to be presented third because its order value is equal to “3”.

FIG. 3C illustrates an exemplary default XTA rule set 340 in accordancewith one embodiment of the present invention that may be understood andexecuted by a transcoding proxy server (e.g., 208). Within the presentembodiment, default XTA rule set 340 includes transcoding instructionsthat a transcoding proxy server (e.g., 208) may follow in order totranscode web pages for a device (e.g., 202) having limited displaycapabilities. Default XTA rule set 340 may include transcodinginstructions pertaining to requested web pages that do not match any ofthe existing XTA rule sets (e.g., layout XTA rule set 302 and/orspecific XTA rule set 322) stored by the transcoding proxy server. It isunderstood that default XTA rule set 340 may include transcodinginstructions pertaining to the content and/or layout of web pages. Asmentioned above, web page layout objects may include tables, frames, andforms while web content objects may include anchors, images,blockquotes, form input, ordered and unordered lists, and the like. Itis appreciated that default XTA rule set 340 may include any type oftranscoding instructions pertaining to web page content and/or layout.As such, default XTA rule set 340 of the present embodiment is not inany way limited to the transcoding instructions shown in FIG. 3C.

Specifically, lines 324, 344, 346, 348 and 350 of default XTA rule set340 provide transcoding instructions to a transcoding proxy server(e.g., 208) for requested web pages that do not match any of theexisting XTA rule sets that may be stored by the transcoding proxyserver. The transcoding proxy server interprets line 342 to indicatethat a web page that pertains to rule set 340 is to be transcodedbecause it has a priority value equal to zero. Furthermore, at line 342,the transcoding proxy server understands that the presentation order isimplicit meaning the order is the same as the original web page wouldsuggest.

At line 344 of FIG. 3C, the transcoding proxy server (e.g., 208)understands that all of the images of the requested web page are totallyirrelevant and should be stripped because it has a negative priorityvalue (e.g., −1). It is understood that when the transcoding proxyserver does not preserve something of a web page, it is stripping thatitem from the web page that it transcodes for the device (e.g., 202)having limited display capabilities. At line 346, the transcoding proxyserver understands that all of the tables of the requested web page aretotally irrelevant and should be stripped because it has a negativepriority value. At line 348, the transcoding proxy server understandsthat all JavaScript™ of the requested web page is totally irrelevant andshould be stripped because it has a negative priority value. At line350, the transcoding proxy server understands that all of the Java™ ofthe requested web page is totally irrelevant and should be strippedbecause it has a negative priority value.

EXEMPLARY OPERATIONS IN ACCORDANCE WITH THE PRESENT INVENTION

FIG. 4 is a flowchart 400 of steps performed in accordance with oneembodiment of the present invention for enabling a transcoding proxyserver (e g., 208) to utilize extensible transcoder annotation (XTA) totranscode web pages for a portable computing device (e.g., 202) havinglimited display capabilities. Flowchart 400 includes processes of thepresent invention which, in one embodiment, are carried out byprocessors and electrical components under the control of computerreadable and computer executable instructions. The computer readable andcomputer executable instructions reside, for example, in data storagefeatures such as computer usable volatile memory 104 and/or computerusable non-volatile memory 106 of FIG. 1. However, the computer readableand computer executable instructions may reside in any type of computerreadable medium. Although specific steps are disclosed in flowchart 400,such steps are exemplary. That is, the present invention is well suitedto performing various other steps or variations of the steps recited inFIG. 4. Within the present embodiment, it should be appreciated that thesteps of flowchart 400 may be performed by software or hardware or anycombination of software and hardware.

Within the present embodiment, the rules for transcoding web pages areabstracted from the transcoding functionality of a transcoding proxyserver (e.g., 208). Specifically, within the transcoding proxy server(e.g., 208), the functions that perform the transcoding of the webcontent for a device (e.g., 202) having limited display capabilities iscompletely separate and distinct from its transcoding rules software(e.g., XTA) that provides the order, manner, and/or what web pagecontent should be transcoded for the requesting device. Therefore, whenthe transcoding proxy server (e.g., 208) receives a web page requestfrom a device (e.g., 202) having limited display capabilities, thepresent embodiment determines whether an XTA file (or database) existswithin a memory device or devices of the transcoding proxy server. Ifthe XTA file exists, the present embodiment searches for a specific XTArule set (e.g., 322) that pertains to the requested web page. If aspecific XTA rule set (e.g., 322) is not found, the present embodimentsearches for a layout XTA rule set (e.g., 302) that pertains to therequested web page. If a layout XTA rule set (e.g., 302) is not found,the present embodiment accesses the default XTA rule set (e.g., 340). Assuch, upon finding a corresponding XTA rule set, the present embodimentcauses the transcoding proxy server (e.g., 208) to follow theinstructions of the XTA rule set in order to transcode the requested webpage for the device (e.g., 202) having limited display capabilities.

It should be appreciated that flowchart 400 is described in conjunctionwith FIGS. 1 and 2 in order to more fully describe the operation of thepresent embodiment. In step 402 of FIG. 4, the present embodimentdetermines whether a transcoding proxy server (e.g., 208) has received aweb page request from a device (e.g., 202) having limited displaycapabilities. If a web page request has not been received by thetranscoding proxy server from the device at step 402, the presentembodiment proceeds to the beginning of step 402. However, if a web pagerequest has been received by the transcoding proxy server from a deviceat step 402, the present embodiment proceeds to step 404. At step 404,the present embodiment causes the transcoding proxy server (e.g., 208)to transmit the received web page request to its corresponding webserver (e.g., 214) via the Internet (e.g., 212).

In step 406, the present embodiment determines whether there is anextensible transcoder annotation (XTA) file (or database) stored with amemory device or devices of the transcoding proxy server (e g, 208). Ifthere is an XTA file stored by the transcoding proxy server at step 406,the present embodiment proceeds to step 410. However, if there is not anXTA file stored by the transcoding proxy server at step 406, the presentembodiment proceeds to step 408. At step 408, the present embodimentcauses the transcoding proxy server (e.g., 208) to transmit and nottranscode any web content it receives from the web server (e.g., 214) tothe requesting device (e.g., 202) having limited display capabilities.In this manner, the transcoding proxy server (e.g., 208) is acting likean open pipe between the web server (e.g., 214) and the device e.g. 202)having limited display capabilities. After completing step 408, thepresent embodiment proceeds to the beginning of step 402.

At step 410 of FIG. 4, the present embodiment determines if there is aspecific 5 XTA rule set (e.g., 322) within the XTA file that pertains tothe requested web page. It is understood that step 410 of the presentembodiment is well suited to be implemented in a wide variety of ways.For example, if the transcoding proxy server (e.g., 208) received a URLwith the web page request, the present embodiment may use that URL todetermine if there is a specific XTA rule set (e.g., 322) within the XTAfile that pertains to that same URL. If there is not a specific XTA ruleset (e.g., 322) that pertains to the requested web page at step 410, thepresent embodiment proceeds to step 414. However, if there is a specificXTA rule set (e.g., 322) that pertains to the requested web page at step410, the present embodiment proceeds to step 412. In step 412, thepresent embodiment causes the transcoding proxy server (e.g., 208) tofollow the instructions of the specific XTA rule set (e.g., 322) inorder to transcode the requested web page content received from the webcontent server (e.g., 214) for the requesting device (e.g., 202) havinglimited display capabilities. Once step 412 is completed, the presentembodiment proceeds to the beginning of step 402.

In step 414, the present embodiment determines if there is a layout XTArule set (e.g., 302) within the XTA file that matches the layoutproperties of the requested web page. It is appreciated that step 4′14of the present embodiment is well suited to be implemented in a widevariety of ways. For example, as the transcoding proxy server (e.g.,208) receives the requested web page from the web content sewer (e g.,214), the present embodiment may analyze the layout of the web contentand determine if there is a layout XTA rule set (e.g., 302) within theXTA file that closely matches the same layout of the web content. Ifthere is not a layout XTA rule set (e.g., 302) that closely matches theanalyzed layout of the requested web page at step 414, the presentembodiment proceeds to step 418. However, if there is a layout XTA ruleset (e.g., 302) that closely matches the analyzed layout of therequested web page at step 414, the present embodiment proceeds to step416.

At step 416 of FIG. 4, the present embodiment causes the transcodingproxy sewer (e.g., 208) to follow the instructions of the layout XTArule set (e.g., 302) in order to transcode the requested web pagecontent received from the web content server (e.g., 214) for therequesting device (e.g., 202) having limited display capabilities. Oncestep 416 is completed, the present embodiment proceeds to the beginningof step 402. In step 418, the present embodiment causes the transcodingproxy sewer (e.g., 208) to follow the instructions of the default XTArule set (e.g., 340) in order to transcode the requested web pagecontent received from the web content server (e.g., 214) for therequesting device (e.g., 202) having limited display capabilities. Oncestep 418 is completed, the present embodiment proceeds to the beginningof step 402.

FIG. 5 is a flowchart 500 of steps performed in accordance with oneembodiment of the present invention for enabling a transcoding proxyserver (e.g., 208) to utilize XTA to transcode web pages for a portablecomputing device (e.g., 202) having limited display capabilities.Flowchart 500 includes processes of the present invention which, in oneembodiment, are carried out by processors and electrical componentsunder the control of computer readable and computer executableinstructions. The computer readable and computer executable instructionsreside, for example, in data storage features such as computer usablevolatile memory 104 and/or computer usable non-volatile memory 106 ofFIG. 1. However, the computer readable and computer executableinstructions may reside in any type of computer readable medium.Although specific steps are disclosed in flowchart 500, such steps areexemplary. That is, the present invention is well suited to performingvarious other steps or variations of the steps recited in FIG. 5. Withinthe present embodiment, it should be appreciated that the steps offlowchart 500 may be performed by software or hardware or anycombination of software and hardware.

Within the present embodiment, the rules for transcoding web pages areabstracted from the transcoding functionality of a transcoding proxyserver (e.g., 208). Specifically, within the transcoding proxy server(e.g., 208), the functions that perform the transcoding of web contentfor a device (e.g., 202) having limited display capabilities iscompletely separate and distinct from its transcoding rules software(e.g., XTA) that provides the order, manner, and/or what web pagecontent should be transcoded for the requesting device. As such, whenthe transcoding proxy server (e.g., 208) receives a web page requestfrom a device (e.g., 202) having limited display capabilities, thepresent embodiment determines whether an XTA file (or database) existswithin a memory device or devices of the transcoding proxy server. Ifthe XTA file exists, the present embodiment searches for an XTA rule set(e.g., 302, 322, and 340) that pertains to the requested web page. Uponfinding a corresponding XTA rule set, the present embodiment causes thetranscoding proxy server (e.g., 208) to follow the instructions of theXTA rule set in order to transcode the requested web page for the device(e.g., 202) having limited display capabilities.

It is appreciated that steps 402, 404, 406, and 408 of FIG. 5 aresimilar to steps 402, 404, 406, and 408 of FIG. 4 described above.However, at step 406 of FIG. 5, if the present embodiment determinesthat there is an XTA file stored by the transcoding proxy server (e.g.,208), the present embodiment proceeds to step 502. In step 502, thepresent embodiment locates an XTA rule set (e.g., 302, 322, or 340)within the XTA file that matches the web page requested by the device(e.g., 202) having limited capabilities. It is understood that step 502of the present embodiment is well suited to be implemented in a widevariety of ways. For example, at step 502, the present embodiment maylocate an XTA rule set within the XTA file that matches the requestedweb page by using a URL of the web page request or the analyzed layoutof the requested web page received from the web content server (e.g.,214). At step 504, the present embodiment causes the transcoding proxyserver (e.g., 208) to follow the instructions of the XTA rule set inorder to transcode the requested web page content received from the webcontent server (e.g., 214) for the requesting device (e.g., 202) havinglimited display capabilities. Once step 504 is completed, the presentembodiment proceeds to the beginning of step 402.

FIG. 6 is a flowchart 600 of steps performed in accordance with oneembodiment of the present invention for enabling a transcoding proxyserver (e.g., 208) to utilize a transcoding annotation rule set totranscode web pages for a portable computing device (e.g., 202) havinglimited display capabilities. Flowchart 600 includes processes of thepresent invention which, in one embodiment, are carried out byprocessors and electrical components under the control of computerreadable and computer executable instructions. The computer readable andcomputer executable instructions reside, for example, in data storagefeatures such as computer usable volatile memory 104 and/or computerusable non-volatile memory 106 of FIG. 1. However, the computer readableand computer executable instructions may reside in any type of computerreadable medium. Although specific steps are disclosed in flowchart 600,such steps are exemplary. That is, the present invention is well suitedto performing various other steps or variations of the steps recited inFIG. 6. Within the present embodiment, it should be appreciated that thesteps of flowchart 600 may be performed by software or hardware or anycombination of software and hardware.

Within the present embodiment, the rules for transcoding web pages areabstracted from the transcoding functionality of a transcoding proxyserver (e.g., 208). Specifically, within the transcoding proxy server(e.g., 208), the functions that perform the transcoding of web contentfor a device (e.g., 202) having limited display capabilities iscompletely separate and distinct from its transcoding rules softwarethat provides the order, manner, and/or what web page content should betranscoded for the requesting device. As such, when the transcodingproxy server (e.g., 208) receives a web page request from a device(e.g., 202) having limited display capabilities, the present embodimentaccesses an annotation rule file (or database) within a memory device ordevices of the transcoding proxy server. The present embodiment searcheswithin the annotation rule file for an annotation rule set that pertainsto the requested web page. Upon finding a corresponding annotation ruleset, the present embodiment causes the transcoding proxy server (e.g.,208) to follow the instructions of the annotation rule set in order totranscode the requested web page for the device (e.g., 202) havinglimited display capabilities.

It is appreciated that steps 402 and 404 of FIG. 6 are similar to steps402 and 404 of FIG. 4 described above. However, once step 404 of FIG. 6is completed, the present embodiment proceeds to step 602. At step 602,the present embodiment accesses an annotation rule file (or database)stored by a memory device or devices of the transcoding proxy server(e.g., 208). In step 604, the present embodiment locates an annotationrule set within the annotation rule file that matches the web pagerequested by the device (e.g., 202) having limited capabilities. It isappreciated that step 604 of the present embodiment is well suited to beimplemented in a wide variety of ways. For example, at step 604, thepresent embodiment may locate an annotation rule set within theannotation rule file that matches the requested web page by using a URLof the web page request or the analyzed layout of the requested web pagereceived from the web content server (e.g., 214). At step 606, thepresent embodiment causes the transcoding proxy server (e g″, 208) tofollow the instructions of the annotation rule set in order to transcodethe requested web page content received from the web content server(e.g., 214) for the requesting device (e.g., 202) having limited displaycapabilities. Once step 606 is completed, the present embodimentproceeds to the beginning of step 402.

Accordingly, embodiments of the present invention provide a method andsystem for providing quality web page products from the Internet toportable computing devices having limited display capabilities.Furthermore, embodiments of the present invention provide a method andsystem which also enables portable computing devices having limiteddisplay capabilities to access any web page on the Internet.Additionally, embodiments of the present invention provide a method andsystem which is not cumbersome to users of portable computing deviceshaving limited display capabilities.

The foregoing descriptions of specific embodiments of the presentinvention have been presented for purposes of illustration anddescription. They are not intended to be exhaustive or to limit theinvention to the precise forms disclosed, and obviously manymodifications and variations are possible in light of the aboveteaching. The embodiments were chosen and described in order to bestexplain the principles of the invention and its practical application,to thereby enable others skilled in the art to best utilize theinvention and various embodiments with various modifications as aresuited to the particular use contemplated. It is intended that the scopeof the invention be defined by the Claims appended hereto and theirequivalents.

1. A method for enabling a transcoding proxy server to utilize anannotation rule set in order to transcode a web page for a portablecomputing device, said method comprising the steps of: (a) a transcodingproxy server receiving a web page request from a portable computingdevice; (b) said transcoding proxy server transmitting said web pagerequest to a server computer coupled to said transcoding proxy server;(c) said transcoding proxy server receiving from said server computer aweb page element corresponding to said web page request; (d) saidtranscoding proxy server locating a first annotation rule set thatcorresponds to said web page request, wherein said first annotation ruleset is distinct from a transcoding functionality utilized by saidtranscoding proxy server; and (e) said transcoding proxy servertranscoding said web page element for said portable computing device byfollowing said first annotation rule set and utilizing said transcodingfunctionality.
 2. The method as described in claim 1 further comprisingthe step of: (f) said transcoding proxy server receiving and storing asecond annotation rule set while said transcoding proxy server isoperating.
 3. The method as described in claim 1 further comprising thestep of: (f) editing said first annotation rule set while saidtranscoding proxy server is operating.
 4. The method as described inclaim I further comprising the step of: (f) deleting a second annotationrule set stored by said transcoding proxy server while said transcodingproxy server is operating.
 5. The method as described in claim 1 whereinsaid portable computing device comprises a personal digital assistant(PDA).
 6. The method as described in claim 1 wherein said portablecomputing device comprises a mobile phone.
 7. The method as described inclaim 1 wherein said portable computing device comprises a pager.
 8. Themethod as described in claim 1 wherein said first annotation rule set isextensible.
 9. The method as described in claim 1 wherein said firstannotation rule set comprises a Uniform Resource Locator (URL) thatcorresponds to said web page request.
 10. The method as described inclaim 1 wherein said first annotation rule set corresponds to a class ofweb pages that all share a common web page object.
 11. The method asdescribed in claim 1 wherein said first annotation rule set correspondsto a class of web pages that all share a common web page layout.
 12. Themethod as described in claim 1 wherein said portable computing devicehas limited display capability.
 13. A computer readable medium havingcomputer readable code embodied therein for causing a transcoding proxycomputer to perform the steps of: (a) receiving a web page request froma portable computing device; (b) transmitting said web page request to aserver computer coupled to said transcoding proxy computer; (c)receiving from said server computer a web page element corresponding tosaid web page request; (d) locating a first annotation rule set thatcorresponds to said web page request, wherein said first annotation ruleset is distinct from transcoding functionality utilized by saidtranscoding proxy server; and (e) transcoding said web page element forsaid portable computing device by following said first annotation ruleset and utilizing said transcoding functionality.
 14. The computerreadable medium as described in claim ′13 further comprising the stepof: (f) said transcoding proxy server receiving and storing a secondannotation rule set while said transcoding proxy server is operating.15. The computer readable medium as described in claim 13 furthercomprising the step of: (f) editing said first annotation rule set whilesaid transcoding proxy server is operating.
 16. The computer readablemedium as described in claim 13 further comprising the step of: (f)deleting a second annotation rule set stored by said transcoding proxyserver while said transcoding proxy server is operating.
 17. Thecomputer readable medium as described in claim 13 wherein said portablecomputing device comprises a personal digital assistant (PDA).
 18. Thecomputer readable medium as described in claim 13 wherein said portablecomputing device comprises a mobile phone.
 19. The computer readablemedium as described in claim ′13 wherein said portable computing devicecomprises a pager.
 20. The computer readable medium as described inclaim 13 wherein said first annotation rule set is extensible.
 21. Thecomputer readable medium as described in claim 13 wherein said firstannotation rule set comprises a Uniform Resource Locator (URL) thatcorresponds to said web page request.
 22. The computer readable mediumas described in claim 13 wherein said first annotation rule setcorresponds to a class of web pages that all share a common web pageobject.
 23. The computer readable medium as described in claim 13wherein said first annotation rule set corresponds to a class of webpages that all share a common web page layout.
 24. The computer readablemedium as described in claim 13 wherein said portable computing devicehas limited display capability.
 25. A method for enabling a transcodingproxy server to utilize an annotation rule set in order to transcode aweb page for a personal digital assistant, said method comprising thesteps of: (a) a transcoding proxy server receiving a web page requestfrom a personal digital assistant; (b) said transcoding proxy servertransmitting said web page request to a server computer coupled to saidtranscoding proxy server; (c) said transcoding proxy server receivingfrom said server computer a web page element corresponding to said webpage request; (d) said transcoding proxy server locating a firstextensible annotation rule set that corresponds to said web pagerequest, wherein said first extensible annotation rule set is distinctfrom a transcoding functionality utilized by said transcoding proxyserver; and (e) said transcoding proxy server transcoding said web pageelement for said personal digital assistant by following said firstextensible annotation rule set and utilizing said transcodingfunctionality.
 26. The method as described in claim 25 furthercomprising the step of: (f) said transcoding proxy server receiving andstoring a second extensible annotation rule set while said transcodingproxy server is operating.
 27. The method as described in claim 25further comprising the step of: (f) editing said first extensibleannotation rule set while said transcoding proxy server is operating.28. The method as described in claim 25 further comprising the step of:(f) deleting a second extensible annotation rule set stored by saidtranscoding proxy server while said transcoding proxy server isoperating.
 29. The method as described in claim 25 wherein said firstextensible annotation rule set comprises a Uniform Resource Locator(URL) that corresponds to said web page request.
 30. The method asdescribed in claim 25 wherein said first extensible annotation rule setcorresponds to a class of web pages that all share a common web pageobject.
 31. The method as described in claim 25 wherein said firstextensible annotation rule set corresponds to a class of web pages thatall share a common web page layout.